Schematic diagram of creating artificial enzyme-mimicking nanopockets in zirconium terephthalate UiO-66 for transfer hydrogenation of alkyl levulinates towards gamma-valerolactone. Credit: Tang ...

How catalysts and enzymes are becoming one of the most powerful and least visible forces in low-carbon manufacturing.

image: An one-pot chemoenzymatic cascade reaction to synthesize chiral alcohol was realized by using the highly active and selective enzyme-metal-single-atom hybrid as the catalyst. The ...

Taking inspiration from enzymes, chemists have developed a catalyst to simplify the synthesis of ethers, key functional components of many drugs, foods, personal care items and other consumer goods.

Using a series of more than 1,000 X-ray snapshots of the shapeshifting of enzymes in action, researchers at Stanford University have illuminated one of the great mysteries of life—how enzymes are able ...

The US catalyst firm Ecovyst will work with the Dutch biocatalysis specialist ChiralVision to advance enzyme mobilization technologies. The firms say they will combine Ecovyst’s strength in silicas ...

(Nanowerk News) Reporting in Science ("De novo design of porphyrin-containing proteins as efficient and stereoselective catalysts"), researchers at UC Santa Barbara, UCSF and the University of ...

Researchers from the lab of Nobel laureate, David Baker, PhD, have now released RFdiffusion3 open source. The latest version of the de novo protein design model generates proteins that interact with ...

A new enzyme-inspired, small-molecule catalyst developed at the University of Illinois holds alcohols and alkenes in just the right proximity and position to join into ethers, key functional ...